MEMS 惯性旋转陀螺仪的机械模型

2011 12th Intl. Conf. on Thermal, Mechanical & Multi-Physics Simulation and Experiments in Microelectronics and Microsystems Pub Date : 2011-04-18 DOI:10.1109/ESIME.2011.5765763

F. Braghin, E. Leo, F. Resta, Stefano Cerra

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引用次数: 1

摘要

惯性 MEMS 陀螺仪设计特性的验证阶段（最终测试）是传感器生产的基础。在这一阶段，要对设备进行测试，以揭示其在角速率测量中的有效性。验证阶段基于一系列能够评估陀螺仪特性的测试，如共振频率、品质因数、正交误差和陀螺仪灵敏度。最终测试的主要目的是尽可能确定特性参数，以节省成本：实际上，每台陀螺仪在投放市场之前都必须经过测试。最终测试阶段使用的测试台以及能够快速确定特征参数的新实验程序将被提出。这种新的测试程序既适用于单轴陀螺仪，也适用于双轴陀螺仪。所取得的结果与更精确（但更慢）的实验程序进行了比较。

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Mechanical model of a MEMS inertial rotational gyroscope

The verification phase (Final Test) of inertial MEMS gyroscopes design properties takes a basic role in the sensors production. It's during this phase that devices are tested to reveal their effectiveness in the survey of the angular rate. The verification phase is based on a set of several tests able to evaluate the gyroscope characteristic properties, such as the resonance frequency, the quality factor, the quadrature error, and the gyroscope sensitivity. The main goal of the Final Test is to identify characteristic parameters as far as possible in order to save money: actually each gyroscope has to be tested before putting it on the market. The test bench used during the Final Test phase will be proposed as well as a new experimental procedure able to fast identify characteristic parameters. This new testing procedure has been applied both for single-axis and double-axis gyroscopes. The results achieved has been compared with a more accurate (but slower) experimental procedure.

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来源期刊

2011 12th Intl. Conf. on Thermal, Mechanical & Multi-Physics Simulation and Experiments in Microelectronics and Microsystems

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